Study of Traps in Special Doped Optical Fiber Radiation Sensors via GlowCurve Analysis

M. Ghomeishi, G. Mahdiraji, P. Jahanshahi, F. Adikan, D. Bradley
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引用次数: 4

Abstract

Thermoluminescence dosimeters (TLDs) are widely used, serving the needs of various radiation applications. In recent times optical fibers have been introduced as alternatives to more conventional phosphor-based TLD systems, with many efforts being carried out to improve their thermoluminescence (TL) yield. While there have been extensive studies of many of the various TLD characteristics of optical fibers, including TL response, linearity, reproducibility, repeatability, sensitivity and fading, far more limited studies have concerned dependence on the type of TL activator used in optical fibers, promoting the TL mechanism. Present study focuses on TLD glow curves analysis for five different doped optical fibers that have been subjected to photon and electron irradiation. Trap parameters such as activation energy and frequency factors have been obtained from second order kinetics analysis, based on computerized glow curve deconvolution. An interesting observation is that co-doped fibers typically leads to enhanced TL characteristics, pointing to a need for optimization of the choice and levels in use of co-dopants.
基于glow曲线分析的特殊掺杂光纤辐射传感器陷阱研究
热释光剂量计(tld)应用广泛,可满足各种辐射应用的需要。近年来,光纤作为传统的磷基TLD系统的替代品被引入,人们正在努力提高其热释光(TL)产率。虽然人们对光纤的各种TLD特性进行了广泛的研究,包括TL响应、线性、再现性、可重复性、灵敏度和衰落,但对光纤中使用的TL激发剂类型的依赖性、对TL机制的促进作用的研究却非常有限。研究了五种不同掺杂光纤在光子和电子辐照下的TLD发光曲线。基于计算机辉光曲线反褶积的二阶动力学分析得到了活化能和频率因子等陷阱参数。一个有趣的观察是,共掺杂光纤通常会导致增强的TL特性,这表明需要优化共掺杂剂的选择和使用水平。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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